Tuesday, April 19, 2016

(Originally published: 30 July 2012 on YOURblog [Your Official University of Regina blog]
at http://www2.uregina.ca/yourblog/?p=6334)

This summer, I’ve taken the lead on some activities that have put me in front of students who want to learn about computer science. The activities are based on a magic trick. I ask students to pick a number between 0 and 15. I tell them that I will guess their number after asking them only four questions. I show four cards and ask them if their number is on each card ‐ and they only answer “yes” or
“no”.
I ask if they think that I can do it and they generally say “yes” – but they are still impressed when I succeed! I did this activity on Tuesday with groups from the
Science Camp,
part of the Summer Sports School.
One memorable response from a young camper: “You’re reading our minds!”

Arthur C. Clarke
said that any sufficiently advanced technology is indistinguishable from magic.
The advanced technology behind the trick is the binary number system that computers use for their computations.
A binary digit (bit) can only store “0″ or “1″. Each “yes” becomes a “1″ and each no is “0″.
Unknowingly, they tell me their number in binary – I just have to convert it to decimal.

After going over the trick and explaining it we give everyone a set of cards to try at home (cards designed by Alex Clarke).
Then we do an implementation of it in either Scratch (
http://scratch.mit.edu/) [a visual programming environment from the Lifelong Kindergarten group at MIT] or
App Inventor (http://www.appinventor.mit.edu/) [also from MIT and related to Scratch, but for programming Android cell phones]. These sessions have gone really well.

Guessing numbers inside the Scratch implementation.

In the image you see me in the Scratch version of the guessing game. Within Scratch it is really easy to include images and edit them. It is also possible to record and play sounds within Scratch. The kids have really enjoyed these features. It should also be noted that Scratch is good for building other kinds of games.
I encourage parents and teachers to make Scratch available to their kids.
There are educator resources available for Scratch at
scratch.mit.edu and
scratched.gse.harvard.edu.
Teachers, if you would like to bring your students to campus so that I can read their minds, please let us know. We may also be able to come to your school.
Please send a message to info@cs.uregina.ca
to inquire about this.

Computer Science is much more than computer literacy and it is important that our kids not only know how to use computer software
but how to build computer software. I’ve been talking about Computer Science outreach since December of 2010.
We’ve been building momentum since then. Last December, we organized a professional development day.
The idea for the card game came from there, suggested by Pat Vigneron from Notre Dame.
Although it is my face in the picture, I am writing on behalf of many people in the
Department of Computer Science
and in the CSTA
who are passionate about bringing CS education to you and your kids.
Let us know how we can help you.

Friday, April 8, 2016

(Originally published: 19 October 2010 on YOURblog [Your Official University of Regina blog]
at http://www2.uregina.ca/yourblog/?p=503)

This past weekend I learned the sad news that
Benoit B. Mandelbrot ,
the father of fractal geometry, had passed away at age 85.
I was fortunate enough to have spent 14 months working for him in 1991 and 1992. I had just completed my
M.Sc. under the supervision of Przemyslaw Prusinkiewicz, who had spent some time on sabbatical with Mandelbrot. This paved the way for fellow student Dave Fracchia (Ph.D.) and me to join Mandelbrot’s Fractals Project. What an opportunity! Brien Maguire, now Dean of Science, said to me then that I might be one of those people who puts his first job at the top of his resume.

Since I’ve heard the news, I’ve spent a lot of time reflecting on my experiences with Dr. Mandelbrot and that period of my life. I have many happy memories of working with him and his group. I was happy to see and hear him in a recording of his TED talk from February of this year:

In 1998, I wrote a piece for “Textshop” (which you will find further along in this post) in which I reflected on the fractal nature of my life’s journey. Now, the impact of my time with Benoit Mandelbrot is even more clear.

"My Life” (1997) by Daryl Hepting. This fractal was created by repeatedly transforming ever smaller copies of the letters L, I, F, and E. The transformations of LIFE represent the directions in which one is pulled through one’s life choices. Complexity and beauty arise from the collection of many simple choices. This image first appeared in Textshop.

The Fractal Nature of Life’s Journey
by Daryl HeptingOriginally published in Textshop, Winter 1998

University and education have been central to most of my life. As I continue my journey, my formal education becomes informal: I learn about my own life and get a glimpse of my big picture. No doubt, my picture is influenced by my past. I am from Saskatchewan, I have worked for Benoit Mandelbrot, and many other things. Saskatchewan has given me an appreciation for the sky and the infinite horizon. Mandelbrot has given me a means to embrace that infinity.

Mandelbrot is the father of fractal geometry and a wonderful man. His dedication, his precision, and his stories have all been inspirational to me. And they have been the opposite too, whenever I thought myself incapable of his challenges or unwilling to play at life. Fractals are his life’s noble work: he has spent many years learning to see the world through a strange new pair of glasses. And now he shares those glasses with others.
The image
that accompanies this text is an expression of what I have learned to see through these glasses: a simplicity that calls out from beneath worldly complexity.

What do fractals say about life? It may not be such a difficult leap to think that they might contribute something profound: history is full of examples where mathematics has been used to describe essential parts of our lives. Biologists define life by a list of properties that most living things have, most of the time. That fractals require the same style of definition only lends to their organic appeal. Fractal properties include detail at all scales, some form of self-similarity and a simple definition. Fractals were discovered in the richness of life and they describe our natural world with startling clarity. They can be seen in the record of the Nile river, the price of commodities, the trees outside my window, and the structures in my body. They bring into focus the details and repeated themes of musical scores and the structure of the universe. Before the word “fractal,” objects found to possess fractal properties were definitely considered the exception rather than the rule. My life exhibits detail, as the patterns of my life are repeated in various ways throughout it. Could the complexities of life’s patterns, like fractals, result from a very simple foundation? At some level, I know that life is simple and straightforward. I see the character of Forrest Gump as an unwitting role model: his life remained free of the complexities that others created for themselves.

When I wonder what I should do with my life, the answer I find is simply: live it! There are some days when I am not up to that imperative, some days when I would rather lie in bed and rationalize my life away. I prefer to create shades of gray, rather than to devote my life to the discipline of black and white: there are some decisions that some days I dare not make.

Escher is an artist whose work is recognized by Mandelbrot as “pre-fractal.” He employed symmetries to intricately fill planes. One of my favourite pictures, called “Angels and Devils,” is by Escher. Angels and devils are interlocked throughout and for me this expresses both positive and negative views. The angelic interpretation is that no matter how bad things look, if I live my life as an expression of my principles, my simple rules, then I can successfully navigate amidst the devils. The devilish view is that life is really as complex as it seems: sometimes a necklace of pearls and sometimes something more sinister. And perhaps this is the view I more commonly take: I see intricate structures unfolding, as my life collides with others. Yet it is easy for me to mistake these artifacts for my life, and gather further evidence of life’s complexity. Whenever I view my life in terms of my past, I mask the simplicity of life. Each day I stand at the precipice and each day might be my last. What must I do? If I defer to my past, I trace out the same pattern in every increasing detail. If I choose to act rather than react, I create a new pattern. Like the butterfly flapping its wings, somewhere, I cannot fathom the ramifications of my simple acts.

As I discern my path in life, I realize that it is truly my own path and it is here to be explored, and lived. I sometimes hold myself back by thinking about what might have been: if I hadn’t taken Chris Fisher’s geometry course or any number of other chances. Then with clarity, I focus on the present and the future: though I cannot see it clearly now, I know that it lies ahead along the intricate path I am creating by living each moment.